斜坡速率对CPV模接损伤累积的影响

N. Bosco, T. Silverman, S. Kurtz
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引用次数: 3

摘要

人们普遍认为,高温斜坡速率下的热循环可能会激活不具代表性的失效机制。然而,增加热循环的温度斜坡率可以显著减少达到等量热疲劳损伤所需的测试时间,从而减少总体测试时间。因此,研究了温度爬坡率对CPV模扣物理损伤的影响。采用有限元模型(FEM)对热疲劳和热循环实验进行了模拟,以确定在各种快速温度斜坡速率下,计算的损伤量是否会导致相应的物理损伤量。初步的实验结果与模拟结果吻合较好,增强了温度斜坡速率增加的潜力。微观结构的表征和由此产生的模具接头疲劳裂纹表明,在所有斜坡率测试中都有类似的失效机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On the effect of ramp rate in damage accumulation of the CPV die-attach
It is commonly understood that thermal cycling at high temperature ramp rates may activate unrepresentative failure mechanisms. Increasing the temperature ramp rate of thermal cycling, however, could dramatically reduce the test time required to achieve an equivalent amount of thermal fatigue damage, thereby reducing overall test time. Therefore, the effect of temperature ramp rate on physical damage in the CPV die-attach is investigated. Finite Element Model (FEM) simulations of thermal fatigue and thermal cycling experiments are made to determine if the amount of damage calculated results in a corresponding amount of physical damage measured to the die-attach for a variety of fast temperature ramp rates. Preliminary experimental results are in good agreement with simulations and reinforce the potential of increasing temperature ramp rates. Characterization of the microstructure and resulting fatigue crack in the die-attach suggest a similar failure mechanism across all ramp rates tested.
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